Rev 2131 | Show entire file | Ignore whitespace | Details | Blame | Last modification | View Log | RSS feed
Rev 2131 | Rev 2307 | ||
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Line 90... | Line 90... | ||
90 | printf(" %P: boot info structure\n", &bootinfo); |
90 | printf(" %P: boot info structure\n", &bootinfo); |
91 | 91 | ||
92 | unsigned int i; |
92 | unsigned int i; |
93 | for (i = 0; i < COMPONENTS; i++) |
93 | for (i = 0; i < COMPONENTS; i++) |
94 | printf(" %P: %s image (size %d bytes)\n", components[i].start, |
94 | printf(" %P: %s image (size %d bytes)\n", components[i].start, |
95 | components[i].name, components[i].size); |
95 | components[i].name, components[i].size); |
96 | 96 | ||
97 | void * base = (void *) KERNEL_VIRTUAL_ADDRESS; |
97 | void * base = (void *) KERNEL_VIRTUAL_ADDRESS; |
98 | unsigned int top = 0; |
98 | unsigned int top = 0; |
99 | 99 | ||
100 | printf("\nCopying components\n"); |
100 | printf("\nCopying components\n"); |
101 | bootinfo.taskmap.count = 0; |
101 | bootinfo.taskmap.count = 0; |
102 | for (i = 0; i < COMPONENTS; i++) { |
102 | for (i = 0; i < COMPONENTS; i++) { |
103 | printf(" %s...", components[i].name); |
103 | printf(" %s...", components[i].name); |
104 | top = ALIGN_UP(top, PAGE_SIZE); |
104 | top = ALIGN_UP(top, PAGE_SIZE); |
- | 105 | ||
- | 106 | /* |
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- | 107 | * At this point, we claim the physical memory that we are |
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- | 108 | * going to use. We should be safe in case of the virtual |
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- | 109 | * address space because the OpenFirmware, according to its |
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- | 110 | * SPARC binding, should restrict its use of virtual memory |
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- | 111 | * to addresses from [0xffd00000; 0xffefffff] and |
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- | 112 | * [0xfe000000; 0xfeffffff]. |
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- | 113 | */ |
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- | 114 | (void) ofw_claim_phys(bootinfo.physmem_start + base + top, |
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- | 115 | ALIGN_UP(components[i].size, PAGE_SIZE)); |
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- | 116 | ||
105 | memcpy(base + top, components[i].start, components[i].size); |
117 | memcpy(base + top, components[i].start, components[i].size); |
106 | if (i > 0) { |
118 | if (i > 0) { |
107 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].addr = base + top; |
119 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].addr = |
- | 120 | base + top; |
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108 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].size = components[i].size; |
121 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].size = |
- | 122 | components[i].size; |
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109 | bootinfo.taskmap.count++; |
123 | bootinfo.taskmap.count++; |
110 | } |
124 | } |
111 | top += components[i].size; |
125 | top += components[i].size; |
112 | printf("done.\n"); |
126 | printf("done.\n"); |
113 | } |
127 | } |
114 | 128 | ||
- | 129 | /* |
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- | 130 | * Claim the physical memory for the boot allocator. |
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- | 131 | * Initialize the boot allocator. |
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- | 132 | */ |
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- | 133 | (void) ofw_claim_phys(bootinfo.physmem_start + |
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- | 134 | base + ALIGN_UP(top, PAGE_SIZE), BALLOC_MAX_SIZE); |
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115 | balloc_init(&bootinfo.ballocs, ALIGN_UP(((uintptr_t) base) + top, PAGE_SIZE)); |
135 | balloc_init(&bootinfo.ballocs, ALIGN_UP(((uintptr_t) base) + top, |
- | 136 | PAGE_SIZE)); |
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116 | 137 | ||
117 | printf("\nCanonizing OpenFirmware device tree..."); |
138 | printf("\nCanonizing OpenFirmware device tree..."); |
118 | bootinfo.ofw_root = ofw_tree_build(); |
139 | bootinfo.ofw_root = ofw_tree_build(); |
119 | printf("done.\n"); |
140 | printf("done.\n"); |
120 | 141 | ||
Line 125... | Line 146... | ||
125 | printf("done.\n"); |
146 | printf("done.\n"); |
126 | #endif |
147 | #endif |
127 | 148 | ||
128 | printf("\nBooting the kernel...\n"); |
149 | printf("\nBooting the kernel...\n"); |
129 | jump_to_kernel((void *) KERNEL_VIRTUAL_ADDRESS, |
150 | jump_to_kernel((void *) KERNEL_VIRTUAL_ADDRESS, |
130 | bootinfo.physmem_start | BSP_PROCESSOR, &bootinfo, sizeof(bootinfo)); |
151 | bootinfo.physmem_start | BSP_PROCESSOR, &bootinfo, |
- | 152 | sizeof(bootinfo)); |
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131 | } |
153 | } |
- | 154 |